Analytical dispersion relation for forward volume spin waves in ferrimagnets near the angular momentum compensation condition

Abstract

Antiferromagnetic magnonics has become the focus of intense scientific research because of the advantages of these materials compared to ferromagnets. However, ferrimagnetic materials have received much less attention despite exhibiting similar dynamical features at the angular momentum compensation point. In this paper, we present analytical expressions describing the dispersion relation of forward volume spin waves in ferrimagnetic materials near the angular momentum compensation point. Besides, we benchmark the derived dispersion relations with full micromagnetic simulations showing a complete agreement between both approaches. This work predicts two different branches for forward volume spin waves in ferrimagnetic materials merging into a single branch at the angular momentum compensation point. Our results can assist in the design of magnonic devices built on ferrimagnetic materials.